NAME
Class::PObject - Perl extension for programming persistent objects
SYNOPSIS
We can create a person object with:
use Class::PObject
pobject Person => {
columns => ['id', 'name', 'email'],
datasource => 'data/person'
};
Or even:
package Person;
pobject {
columns => ['id', 'name', 'email''
datasource => 'data/person'
};
We can now use the above Person class:
my $person = new Person();
$person->name('Sherzod');
$person->email('sherzodr@cpan.org');
my $new_id = $person->save();
We can access the saved Person later, make necessary changes and save
back:
$person = Person->load($new_id);
$person->name('Sherzod Ruzmetov (The Geek)');
$person->save();
We can load all the previously stored objects:
my @people = Person->load();
for ( my $i=0; $i < @people; $i++ ) {
my $person = $people[$i];
printf("[%02d] %s \n", $person->id, $person->name, $person->email);
}
or we can load all the objects based on some criteria and sort the list
by column name in descending order, and limit the results to only the
first 3 objects:
my @people = Person->load({name=>"Sherzod"}, {sort=>'name', direction=>'desc', limit=>3});
We can also retrieve records incrementally:
my @people = Person->load(undef, {offset=>10, limit=>10});
WARNING
This is 'alpha' release. I mainly want to hear some ideas, criticism and
suggestions from people. Look at TODO section for more details.
DESCRIPTION
Class::PObject is a class framework for creating persistent objects.
Such objects can store themselves into disk, and recreate themselves
from the disk.
If it is easier for you, just think of a persistent object as a single
record of a relational database:
+-----+----------------+--------+----------+
| id | title | artist | album_id |
+-----+----------------+--------+----------+
| 217 | Yagonam O'zing | Sevara | 1 |
+-----+----------------+--------+----------+
The above record of a song can be represented as a persistent object.
Using Class::PObject, you can defined this object like this:
pobject Song => {
columns => ['id', 'title', 'artist', 'album_id']
};
my $song = new Song(title=>"Yagonam O'zing", artist=>"Sevara", album_id=>1);
All the disk access is performed through its drivers, thus allowing your
objects truly transparent database access. Currently supported drivers
are 'mysql', 'file' and 'csv'. More drivers can be added, and I believe
will be added.
PROGRAMMING STYLE
The style of Class::PObject is very similar to that of the Class::Struct
manpage. Instead of exporting 'struct()', however, Class::PObject
exports 'pobject()'. Another visual difference is the way you define
your arguments. In Class::PObject, each property of the class is
represented as one column.
DEFINING OBJECTS
Object can be created in several ways. You can create the object in its
own .pm file with the following syntax:
package Article;
pobject {
columns => ['id', 'title', 'date', 'author', 'source', 'text']
};
Or you can also create an in-line object - from within your programs
with more explicit declaration:
pobject Article => {
columns => ['id', 'title', 'date', 'author', 'source', 'text']
};
Effect of the above two examples is identical - Article object. By
default, Class::PObject will fall back to 'file' driver if you do not
specify any drivers. So the above Article object could also be redefined
more explicitly as:
pobject Article => {
columns => \@columns,
driver => 'file'
};
The above examples are creating temporary objects. These are the ones
stored in your system's temporary location. So if you want more
'permanent' objects, you should also declare its datasource:
pobject Article => {
columns => \@columns,
datasource => 'data/articles'
};
Now, the above article object will store its objects into data/articles
folder. Since data storage is so dependant on the drivers, we'll leave
it for library drivers.
Class declarations are tightly dependant to the type of driver being
used, so we'll leave the rest of the declaration to specific drivers. In
this document, we'll concentrate more on the user interface of the
Class::PObject - something not dependant on the driver.
CREATING NEW OBJECTS
After you define an object, as described above, now you can create
instances of those objects. Objects are created with new() - constructor
method. To create an instance of the above Article object, we do:
$article = new Article();
The above syntax will create an empty Article object. We can now fill
'columns' of this object one by one:
$article->title("Persistent Objects with Class::PObject");
$article->date("Sunday, June 08, 2003"),
$article->author("Sherzod B. Ruzmetov");
$article->source("lost+found (http://author.handalak.com)");
$article->text("CONTENTS OF THE ARTICLE GOES HERE");
Another way of filling in objects, is by passing column values to the
constructor - new():
$article = new Article(title => "Persistent Objects with Class::PObject",
date => "Sunday, June 08, 2003",
author => "Sherzod Ruzmetov",
source => "lost+found (http://author.handalak.com" );
$article->text("CONTENTS OF THE ARTICLE GO HERE");
Notice, above example is initializing all the properties of the object
except for 'text' in the constructor, and initializing 'text'
separately. You can use any combination, as long as you are satisfied.
STORING OBJECTS
Usually, when you create the objects and fill them with data, they are
in-memory data structures, and not attached to any disk device. It's
when you call save() method of those objects when they become so. To
store the above article into disk:
$article->save();
save() method returns newly created object id on success, undef on
failure. So you may want to check its return value to see if it
succeeded:
my $new_id = $article->save() or die "couldn't store the article";
Note: we'll talk more about handling exceptions in later sections.
LOADING OBJECTS
No point of storing stuff if you can't retrieve them when you want.
Class::PObject objects support load() method which allows you do that.
You can retrieve objects in many ways. The easiest, and the most
efficient way of loading an object from the disk is by its id:
my $article = Article->load(1251);
the above code is retrieving an article with id 1251. You can now either
display the article on your web page:
printf("

%s

", $article->title);
printf("

By %s

", $article->author);
printf("

Posted on %s

", $article->date);
printf("

%s

", $article->text);
or you can make some changes, say, change its title and save it back:
$article->title("Persistent Objects in Perl made easy with Class::PObject");
$article->save();
Other ways of loading objects can be by passing column values, in which
case the object will retrieve all the objects from the database matching
your search criteria:
my @articles = Article->load({author=>"Sherzod Ruzmetov"});
The above code will retrieve all the articles from the database written
by "Sherzod Ruzmetov". You can specify more criteria to narrow your
search down:
my @articles = Article->load({author=>"Sherzod Ruzmetov", source=>"lost+found"});
The above will retrieve all the articles written by "Sherzod Ruzmetov"
and with source "lost+found". We can of course, pass no arguments to
load(), in which case all the objects of the same type will be returned.
Elements of returned @array are instances of Article objects. We can
generate the list of all the articles with the following syntax:
my @articles = Article->load();
for my $article ( @articles ) {
printf("[%02d] - %s - %s - %s\n", $article->id, $article->title, $article->author, $article->date);
}
load() also supports second set of arguments used to do post-result
filtering. Using these sets you can sort the results by any column,
retrieve first n number of results, or do incremental retrievals. For
example, to retrieve first 10 articles with the highest rating (assuming
our Article object supports 'rating' property):
my @favorites = Article->load(undef, {sort=>'rating', direction=>'desc', limit=>10});
The above code is applying descending ordering on rating column, and
limiting the search for first 10 objects. We could also do incremental
retrievals. This method is best suited for web applications, where you
can present "previous/next" navigation links and limit each listing to
some number:
my @articles = Article->load(undef, {offset=>10, limit=>10});
Above code retrieves records 10 through 20.
REMOVING OBJECTS
Objects created by Class::PObject support method called "remove()" and
"remove_all()". "remove()" is an object method, can used only to remove
one object at a time. "remove_all()" removes all the objects of the same
type, thus a little more scarier.
Note, that all the objects can still be removed with "remove()" method,
without any need for more explicit "remove_all()". So why two methods?
On some drivers, removing all the objects at once is more efficient than
removing objects one by one. Perfect example is 'mysql' driver.
To remove an article with id 1201, we first need to create the object of
that article by loading it:
# we first need to load the article:
my $article = Article->load(1201);
$article->remove();
remove() will return any true value indicating success, undef on
failure.
$article->remove() or die "couldn't remove the article";
remove_all(), on the other hand, is a static class method:
Article->remove_all();
DEFINING METHODS OTHER THAN ACCESSORS
If you are defining the object in its own class file, you can extend the
class with custom methods. For example, assume you have a User object,
which needs to be authenticated before they can access certain parts of
the web site. It may be a good idea to add "authenticate()" method into
your User class, which either returns the User object if he/she is
logged in properly, or returns undef.
package User;
pobject {
columns => ['id', 'login', 'psswd', 'email'],
datasource => 'data/users'
};
sub authenticate {
my $class = shift;
my ($cgi, $session) = @_;
# if the user is already logged in, return the object:
if ( $session->param('_logged_in') ) {
return $class->load({id=>$session->param('_logged_in')});
}
# if we come this far, we'll try to initialize the object with CGI parameters:
my $login = $cgi->param('login') or return undef;
my $password = $cgi->param('password') or return undef;
# if we come this far, both 'login' and 'password' fields were submitted in the form:
my $user = $class->load({login=>$login, psswd=>$password});
# if the user could be loadded, we set the session parameter to his/her id
if ( defined $user ) {
$session->param('_logged_in', $user->id);
}
return $user;
}
Now, we can check if the user is logged into our web site with the
following code:
use User;
my $user = User->authenticate($cgi, $session);
unless ( defined $user ) {
die "You need to login to the website before you can access this page!";
}
printf("

Hello %s

", $user->login);
Notice, we're passing CGI and CGI::Session objects to authenticate. You
can do it differently depending on the tools you're using.
ERROR HANDLING
Objects created with Class::PObject tries never to die(), and lets the
programer to decide what to do on failure, (unless of course, you insult
it with wrong syntax).
Methods that may fail are the one to do with disk access, namely,
save(), load(), remove() and remove_all(). So it's advised that you
check these methods' return values before you assume any success. If an
error occurs, the above methods will return undef. More verbose error
message will be accessible through error() method. In addition, save()
method should always return the object id, either newly created, or
updated.
my $new_id = $article->save();
unless ( defined $new_id ) {
die "couldn't save the article: " . $article->error();
}
Article->remove_all() or die "couldn't remove objects:" . Article->error;
MISCELLANEOUS METHODS
In addition to the above described methods, objects of Class::PObject
also support the following few useful ones:
* columns() - returns hash-reference to all the columns of the object.
Keys of the hash hold colum names, and their values hold respective
column values:
my $columns = $article->columns();
while ( my ($k, $v) = each %$columns ) {
printf("%s => %s\n", $k, $v);
}
* dump() - dumps the object as a chunk of visually formatted data
structures using standard the Data::Dumper manpage. This method is
mainly for debugging, and I believe will be present only untill
stable release of the library is launched.
* error() - class method. Returns the error message from last I/O
operations, if any. This error message is also available through
$CLASS::ERROR global variable:
$article->save() or die $article->error();
# or
$article->save() or die $Article::ERROR;
* struct() - another alias for pobject(). Initial release of the
library used to export struct(). Since it may clash with standar
Class::Struct's struct(), I decided to make it available ONLY at
request:
use Class::PObject 'struct';
struct Article => {
columns \@columns,
};
TODO
Following are the lists of features and/or fixes that need to be applied
before considering the library ready for production environment. The
list is not exhaustive. Feel free to add your suggestions.
TEST, TEST AND TEST
The library should be tested more.
DRIVER SPECS
Currently driver specifications are not very well documented. Need to
spend more time to come up with more intuitive and comprehensive
specification.
MORE FLEXIBLE LOAD()
load() will not be all we need until it supports at least simple joins.
Something similar to the following may do:
@articles = Article->load(join => ['ObjectName', \%terms, \%args]);
I believe it's something to be supported by object drivers, that's where
it can be performed more efficiently.
GLOBAL DESCTRUCTOR
Class::PObjects try to cache the driver object for more extended periods
than current object's scope permits them to. So a "global" DESTROY
should be applied to prevent memory leaks or other unfavorable
consequences, especially under persistent environments, such as mod_perl
or GUI environments.
At this point, I don't have how to implement it the best way.
DRIVER SPECS NOTES
the Class::PObject::Driver manpage
DEVELOPER NOTES
coming soon...
SEE ALSO
the Class::PObject manpage, the Class::PObject::Driver::mysql manpage,
the Class::PObject::Driver::file manpage
AUTHOR
Sherzod Ruzmetov